/** @file HL_emif.c
*   @brief emif Driver Implementation File
*   @date 07-July-2017
*   @version 04.07.00
*
*/

/*
* Copyright (C) 2009-2016 Texas Instruments Incorporated - www.ti.com
*
*
*  Redistribution and use in source and binary forms, with or without
*  modification, are permitted provided that the following conditions
*  are met:
*
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*    notice, this list of conditions and the following disclaimer.
*
*    Redistributions in binary form must reproduce the above copyright
*    notice, this list of conditions and the following disclaimer in the
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*    distribution.
*
*    Neither the name of Texas Instruments Incorporated nor the names of
*    its contributors may be used to endorse or promote products derived
*    from this software without specific prior written permission.
*
*  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
*  "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
*  LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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*  (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
*  OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/


/* USER CODE BEGIN (0) */
/* USER CODE END */

#include "HL_emif.h"

/* USER CODE BEGIN (1) */
/* USER CODE END */

/** @fn void emif_SDRAMInit(void)
*   @brief Initializes the emif Driver for SDRAM
*
*   This function has been deprecated.
*   As per the errata EMIF#5, EMIF SDRAM initialization must performed with EMIF clock below 40MHz.
*   Hence the init function needs to be called from the startup before the PLL is configured.
*   A new function emif_SDRAM_StartupInit has been added and is called from the startup.
*   This function need not be called from the main, and is preserved for compatibilty.
*/

/* SourceId : EMIF_SourceId_001 */
/* DesignId : EMIF_DesignId_001 */
/* Requirements : HL_CONQ_EMIF_SR2 */
void emif_SDRAMInit(void)
{

/* USER CODE BEGIN (2) */
/* USER CODE END */

/* USER CODE BEGIN (3) */
/* USER CODE END */
}


/** @fn void emif_ASYNC1Init(void)
*   @brief Initializes the emif Driver for ASYNC memories
*
*   This function initializes the emif driver for Asynchronous memories like Nor and Nand Flashes,Asynchronous RAM.
*/
/* SourceId : EMIF_SourceId_002 */
/* DesignId : EMIF_DesignId_002 */
/* Requirements : HL_CONQ_EMIF_SR3 */
void emif_ASYNC1Init(void)
{
/* USER CODE BEGIN (4) */
/* USER CODE END */
    emifREG->CE2CFG = 0x00000000U;
    emifREG->CE2CFG = (uint32)((uint32)0U << 31U)|
                      (uint32)((uint32)0U << 30U)|
                      (uint32)((uint32)15U << 26U)|
                      (uint32)((uint32)63U << 20U)|
                      (uint32)((uint32)7U << 17U)|
                      (uint32)((uint32)15U << 13U)|
                      (uint32)((uint32)63U << 7U)|
                      (uint32)((uint32)7U << 4U)|
                      (uint32)((uint32)0U << 2U)|
                      (uint32)((uint32)emif_8_bit_port);

    emifREG->AWCC   = (emifREG->AWCC & 0xC0FF0000U)|
                      (uint32)((uint32)emif_pin_high << 29U)|
                      (uint32)((uint32)emif_pin_low << 28U)|
                      (uint32)((uint32)emif_wait_pin0 << 16U)|
                      (uint32)((uint32)0U);

    emifREG->PMCR   = (emifREG->PMCR & 0xFFFFFF00U)|
                      (uint32)((uint32)0U << 2U)|
                      (uint32)((uint32)emif_4_words << 1U)|
                      (uint32)((uint32)0U);
/* USER CODE BEGIN (5) */
/* USER CODE END */
}

/** @fn void emif_ASYNC2Init(void)
*   @brief Initializes the emif Driver for ASYNC memories
*
*   This function initializes the emif driver for Asynchronous memories like Nor and Nand Flashes,Asynchronous RAM.
*/
/* SourceId : EMIF_SourceId_003 */
/* DesignId : EMIF_DesignId_002 */
/* Requirements : HL_CONQ_EMIF_SR4 */
void emif_ASYNC2Init(void)
{
/* USER CODE BEGIN (6) */
/* USER CODE END */

    emifREG->CE3CFG = 0x00000000U;
    emifREG->CE3CFG = (uint32)((uint32)0U << 31U)|
                      (uint32)((uint32)0U << 30U)|
                      (uint32)((uint32)15U << 26U)|
                      (uint32)((uint32)63U << 20U)|
                      (uint32)((uint32)7U << 17U)|
                      (uint32)((uint32)15U << 13U)|
                      (uint32)((uint32)63U << 7U)|
                      (uint32)((uint32)7U << 4U)|
                      (uint32)((uint32)0U << 2U)|
                      (uint32)((uint32)emif_8_bit_port);

    emifREG->AWCC   = (emifREG->AWCC & 0xC0FF0000U)|
                      (uint32)((uint32)emif_pin_high << 29U)|
                      (uint32)((uint32)emif_pin_low << 28U)|
                      (uint32)((uint32)emif_wait_pin0 << 18U)|
                      (uint32)((uint32)0U);

    emifREG->PMCR   = (emifREG->PMCR & 0xFFFF00FFU)|
                      (uint32)((uint32)0U << 10U)|
                      (uint32)((uint32)emif_4_words << 9U)|
                      (uint32)((uint32)0U << 8U);
/* USER CODE BEGIN (7) */
/* USER CODE END */

}


/** @fn void emif_ASYNC3Init(void)
*   @brief Initializes the emif Driver for ASYNC memories
*
*   This function initializes the emif driver for Asynchronous memories like Nor and Nand Flashes,Asynchronous RAM.
*/
/* SourceId : EMIF_SourceId_004 */
/* DesignId : EMIF_DesignId_002 */
/* Requirements : HL_CONQ_EMIF_SR5 */
void emif_ASYNC3Init(void)
{
/* USER CODE BEGIN (8) */
/* USER CODE END */

    emifREG->CE4CFG = 0x00000000U;
    emifREG->CE4CFG = (uint32)((uint32)0U << 31U)|
                      (uint32)((uint32)0U << 30U)|
                      (uint32)((uint32)15U << 26U)|
                      (uint32)((uint32)63U << 20U)|
                      (uint32)((uint32)7U << 17U)|
                      (uint32)((uint32)15U << 13U)|
                      (uint32)((uint32)63U << 7U)|
                      (uint32)((uint32)7U << 4U)|
                      (uint32)((uint32)0U << 2U)|
                      (uint32)((uint32)emif_8_bit_port);

    emifREG->AWCC   = (emifREG->AWCC & 0xC0FF0000U)|
                      (uint32)((uint32)emif_pin_high << 29U)|
                      (uint32)((uint32)emif_pin_low << 28U)|
                      (uint32)((uint32)emif_wait_pin0 << 20U)|
                      (uint32)((uint32)0U);

    emifREG->PMCR   = (emifREG->PMCR & 0xFF00FFFFU) |
                      (uint32)((uint32)0U << 18U)|
                      (uint32)((uint32)emif_4_words << 17U)|
                      (uint32)((uint32)0U << 16U);

/* USER CODE BEGIN (9) */
/* USER CODE END */
}

/* USER CODE BEGIN (10) */
/* USER CODE END */

/** @fn void emifGetConfigValue(emif_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the EMIF configuration registers
*
*   @param[in] *config_reg: pointer to the struct to which the initial or current
*                           value of the configuration registers need to be stored
*   @param[in] type:    whether initial or current value of the configuration registers need to be stored
*                       - InitialValue: initial value of the configuration registers will be stored
*                                       in the struct pointed by config_reg
*                       - CurrentValue: initial value of the configuration registers will be stored
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type')
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : EMIF_SourceId_005 */
/* DesignId : EMIF_DesignId_003 */
/* Requirements : HL_CONQ_EMIF_SR6 */
void emifGetConfigValue(emif_config_reg_t *config_reg, config_value_type_t type)
{
    if (type == InitialValue)
    {
        config_reg->CONFIG_AWCC    = EMIF_AWCC_CONFIGVALUE;
        config_reg->CONFIG_SDCR    = EMIF_SDCR_CONFIGVALUE;
        config_reg->CONFIG_SDRCR   = EMIF_SDRCR_CONFIGVALUE;
        config_reg->CONFIG_CE2CFG  = EMIF_CE2CFG_CONFIGVALUE;
        config_reg->CONFIG_CE3CFG  = EMIF_CE3CFG_CONFIGVALUE;
        config_reg->CONFIG_CE4CFG  = EMIF_CE4CFG_CONFIGVALUE;
        config_reg->CONFIG_CE5CFG  = EMIF_CE5CFG_CONFIGVALUE;
        config_reg->CONFIG_SDTIMR  = EMIF_SDTIMR_CONFIGVALUE;
        config_reg->CONFIG_SDSRETR = EMIF_SDSRETR_CONFIGVALUE;
        config_reg->CONFIG_INTMSK  = EMIF_INTMSK_CONFIGVALUE;
        config_reg->CONFIG_PMCR    = EMIF_PMCR_CONFIGVALUE;
    }
    else
    {
    /*SAFETYMCUSW 134 S MR:12.2 <APPROVED> "LDRA Tool issue" */
        config_reg->CONFIG_AWCC     = emifREG->AWCC;
        config_reg->CONFIG_SDCR     = emifREG->SDCR;
        config_reg->CONFIG_SDRCR    = emifREG->SDRCR ;
        config_reg->CONFIG_CE2CFG   = emifREG->CE2CFG;
        config_reg->CONFIG_CE3CFG   = emifREG->CE3CFG;
        config_reg->CONFIG_CE4CFG   = emifREG->CE4CFG;
        config_reg->CONFIG_CE5CFG   = emifREG->CE5CFG;
        config_reg->CONFIG_SDTIMR   = emifREG->SDTIMR;
        config_reg->CONFIG_SDSRETR  = emifREG->SDSRETR;
        config_reg->CONFIG_INTMSK   = emifREG->INTMSK;
        config_reg->CONFIG_PMCR     = emifREG->PMCR;
    }
}


/** @fn void emif_SDRAM_StartupInit(void)
*   @brief Initializes the emif Driver for SDRAM
*
*   This function initializes the emif driver for SDRAM (SDRAM initialization function).
*   SDRAM Configuration Procedure B as documented in the TRM is implemented.
*   
*   Note: This function is called in the startup. Do not call the function inside main.
*/

/* SourceId : EMIF_SourceId_006 */
/* DesignId : EMIF_DesignId_004 */
/* Requirements : HL_CONQ_EMIF_SR2 */
void emif_SDRAM_StartupInit(void)
{
/* USER CODE BEGIN (11) */
/* USER CODE END */

	volatile uint32 buffer;

	/* Procedure B Step 1:  EMIF Clock Frequency is assumed to be configured in the startup */

	/* Procedure B  Step 2:  Program SDTIMR and SDSRETR to satisfy requirements of SDRAM Device */
	emifREG->SDTIMR  = (uint32)((uint32)0U << 27U)|
					   (uint32)((uint32)0U << 24U)|
					   (uint32)((uint32)0U << 23U)|
					   (uint32)((uint32)0U << 20U)|
					   (uint32)((uint32)0U << 19U)|
					   (uint32)((uint32)0U << 16U)|
					   (uint32)((uint32)0U << 12U)|
					   (uint32)((uint32)0U << 8U)|
					   (uint32)((uint32)0U << 7U)|
					   (uint32)((uint32)0U << 4U)|
					   (uint32)((uint32)0U << 3U);

	emifREG->SDSRETR = (uint32)0U;

	/* Procedure B  Step 3:  Program the RR Field of SDRCR to provide 200us of initialization time */
	emifREG->SDRCR   = 1605U;

	/* Procedure B  Step 4:  Program SDRCR to Trigger Initialization Sequence */
	/**  -general clearing of register
	*    -for NM for setting 16 bit data bus
	*    -cas latency
	*    -BIT11_9CLOCK to allow the cl field to be written
	*    -selecting the banks
	*    -setting the pagesize
	*/
	emifREG->SDCR   = (uint32)((uint32)0U << 31U)|
					  (uint32)((uint32)1U << 14U)|
					  (uint32)((uint32)0U << 9U)|
					  (uint32)((uint32)1U << 8U)|
					  (uint32)((uint32)0U << 4U)|
					  (uint32)((uint32)elements_256);

	/* Procedure B  Step 5:  Read of SDRAM memory location causes processor to wait until SDRAM Initialization completes */
	buffer           = *PTR;
	/* prevents optimization */
	buffer           = buffer;

	/* Procedure B  Step 6:  Program the RR field to the default Refresh Interval of the SDRAM*/
	emifREG->SDRCR   = 0U;

	/* Place the EMIF in Self Refresh Mode For Clock Change          */
	/* Must only write to the upper byte of the SDCR to avoid        */
	/* a second intiialization sequence                              */
	/* The byte address depends on endian (0x3U in LE, 0x00 in BE32) */
       *((unsigned char *)(&emifREG->SDCR) + 0x0U) = 0x80U;

/* USER CODE BEGIN (12) */
/* USER CODE END */
}
